
/*
 * -- SuperLU routine (version 2.0) --
 * Univ. of California Berkeley, Xerox Palo Alto Research Center,
 * and Lawrence Berkeley National Lab.
 * November 15, 1997
 *
 */
/*
Copyright (c) 2003, The Regents of the University of California, through
Lawrence Berkeley National Laboratory (subject to receipt of any required 
approvals from U.S. Dept. of Energy) 

All rights reserved. 

The source code is distributed under BSD license, see the file License.txt
*/
/*
  Copyright (c) 1997 by Xerox Corporation.  All rights reserved.
 
  THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY
  EXPRESSED OR IMPLIED.  ANY USE IS AT YOUR OWN RISK.
 
  Permission is hereby granted to use or copy this program for any
  purpose, provided the above notices are retained on all copies.
  Permission to modify the code and to distribute modified code is
  granted, provided the above notices are retained, and a notice that
  the code was modified is included with the above copyright notice.
*/

#include <stdio.h>
#include <stdlib.h>
#include "slu_cdefs.h"


/* Eat up the rest of the current line */
int cDumpLine(FILE *fp)
{
    register int c;
    while ((c = fgetc(fp)) != '\n') ;
    return 0;
}

int cParseIntFormat(char *buf, int *num, int *size)
{
    char *tmp;

    tmp = buf;
    while (*tmp++ != '(') ;
    sscanf(tmp, "%d", num);
    while (*tmp != 'I' && *tmp != 'i') ++tmp;
    ++tmp;
    sscanf(tmp, "%d", size);
    return 0;
}

int cParseFloatFormat(char *buf, int *num, int *size)
{
    char *tmp, *period;
    
    tmp = buf;
    while (*tmp++ != '(') ;
    *num = atoi(tmp); /*sscanf(tmp, "%d", num);*/
    while (*tmp != 'E' && *tmp != 'e' && *tmp != 'D' && *tmp != 'd'
	   && *tmp != 'F' && *tmp != 'f') {
        /* May find kP before nE/nD/nF, like (1P6F13.6). In this case the
           num picked up refers to P, which should be skipped. */
        if (*tmp=='p' || *tmp=='P') {
           ++tmp;
           *num = atoi(tmp); /*sscanf(tmp, "%d", num);*/
        } else {
           ++tmp;
        }
    }
    ++tmp;
    period = tmp;
    while (*period != '.' && *period != ')') ++period ;
    *period = '\0';
    *size = atoi(tmp); /*sscanf(tmp, "%2d", size);*/

    return 0;
}

int cReadVector(FILE *fp, int n, int *where, int perline, int persize)
{
    register int i, j, item;
    char tmp, buf[100], *dummy;
    dummy = 0;
    i = 0;
    while (i < n) {
	dummy = fgets(buf, 100, fp);    /* read a line at a time */
	for (j=0; j<perline && i<n; j++) {
	    tmp = buf[(j+1)*persize];     /* save the char at that place */
	    buf[(j+1)*persize] = 0;       /* null terminate */
	    item = atoi(&buf[j*persize]); 
	    buf[(j+1)*persize] = tmp;     /* recover the char at that place */
	    where[i++] = item - 1;
	}
    }

    return 0;
}

/* Read complex numbers as pairs of (real, imaginary) */
int cReadValues(FILE *fp, int n, complex *destination, int perline, int persize)
{
  register int i, j, k, s, pair;
  register float realpart;
  char tmp, buf[100], *dummy;
  
  i = pair = 0;
  while (i < n) {
    dummy = fgets(buf, 100, fp);    /* read a line at a time */
    for (j=0; j<perline && i<n; j++) {
      tmp = buf[(j+1)*persize];     /* save the char at that place */
      buf[(j+1)*persize] = 0;       /* null terminate */
      s = j*persize;
      for (k = 0; k < persize; ++k) /* No D_ format in C */
        if ( buf[s+k] == 'D' || buf[s+k] == 'd' ) buf[s+k] = 'E';
      if ( pair == 0 ) {
        /* The value is real part */
        realpart = atof(&buf[s]);
        pair = 1;
      } else {
        /* The value is imaginary part */
        destination[i].r = realpart;
        destination[i++].i = atof(&buf[s]);
        pair = 0;
      }
      buf[(j+1)*persize] = tmp;     /* recover the char at that place */
    }
  }
  return 0;
}


void
creadhb(int *nrow, int *ncol, int *nonz,
	complex **nzval, int **rowind, int **colptr)
{
/* 
 * Purpose
 * =======
 * 
 * Read a COMPLEX PRECISION matrix stored in Harwell-Boeing format 
 * as described below.
 * 
 * Line 1 (A72,A8) 
 *  	Col. 1 - 72   Title (TITLE) 
 *	Col. 73 - 80  Key (KEY) 
 * 
 * Line 2 (5I14) 
 * 	Col. 1 - 14   Total number of lines excluding header (TOTCRD) 
 * 	Col. 15 - 28  Number of lines for pointers (PTRCRD) 
 * 	Col. 29 - 42  Number of lines for row (or variable) indices (INDCRD) 
 * 	Col. 43 - 56  Number of lines for numerical values (VALCRD) 
 *	Col. 57 - 70  Number of lines for right-hand sides (RHSCRD) 
 *                    (including starting guesses and solution vectors 
 *		       if present) 
 *           	      (zero indicates no right-hand side data is present) 
 *
 * Line 3 (A3, 11X, 4I14) 
 *   	Col. 1 - 3    Matrix type (see below) (MXTYPE) 
 * 	Col. 15 - 28  Number of rows (or variables) (NROW) 
 * 	Col. 29 - 42  Number of columns (or elements) (NCOL) 
 *	Col. 43 - 56  Number of row (or variable) indices (NNZERO) 
 *	              (equal to number of entries for assembled matrices) 
 * 	Col. 57 - 70  Number of elemental matrix entries (NELTVL) 
 *	              (zero in the case of assembled matrices) 
 * Line 4 (2A16, 2A20) 
 * 	Col. 1 - 16   Format for pointers (PTRFMT) 
 *	Col. 17 - 32  Format for row (or variable) indices (INDFMT) 
 *	Col. 33 - 52  Format for numerical values of coefficient matrix (VALFMT) 
 * 	Col. 53 - 72 Format for numerical values of right-hand sides (RHSFMT) 
 *
 * Line 5 (A3, 11X, 2I14) Only present if there are right-hand sides present 
 *    	Col. 1 	      Right-hand side type: 
 *	         	  F for full storage or M for same format as matrix 
 *    	Col. 2        G if a starting vector(s) (Guess) is supplied. (RHSTYP) 
 *    	Col. 3        X if an exact solution vector(s) is supplied. 
 *	Col. 15 - 28  Number of right-hand sides (NRHS) 
 *	Col. 29 - 42  Number of row indices (NRHSIX) 
 *          	      (ignored in case of unassembled matrices) 
 *
 * The three character type field on line 3 describes the matrix type. 
 * The following table lists the permitted values for each of the three 
 * characters. As an example of the type field, RSA denotes that the matrix 
 * is real, symmetric, and assembled. 
 *
 * First Character: 
 *	R Real matrix 
 *	C Complex matrix 
 *	P Pattern only (no numerical values supplied) 
 *
 * Second Character: 
 *	S Symmetric 
 *	U Unsymmetric 
 *	H Hermitian 
 *	Z Skew symmetric 
 *	R Rectangular 
 *
 * Third Character: 
 *	A Assembled 
 *	E Elemental matrices (unassembled) 
 *
 */

    register int i, numer_lines = 0, rhscrd = 0;
    int tmp, colnum, colsize, rownum, rowsize, valnum, valsize, dummy;
    char buf[100], type[4], key[10], *dummyc;
    FILE *fp;
    
    dummy = 0;

    fp = stdin;

    /* Line 1 */
    dummyc = fgets(buf, 100, fp);
    dummy += fputs(buf, stdout);
#if 0
    dummy += fscanf(fp, "%72c", buf); buf[72] = 0;
    printf("Title: %s", buf);
    dummy += fscanf(fp, "%8c", key);  key[8] = 0;
    printf("Key: %s\n", key);
    cDumpLine(fp);
#endif

    /* Line 2 */
    for (i=0; i<5; i++) {
	dummy += fscanf(fp, "%14c", buf); buf[14] = 0;
	sscanf(buf, "%d", &tmp);
	if (i == 3) numer_lines = tmp;
	if (i == 4 && tmp) rhscrd = tmp;
    }
    cDumpLine(fp);

    /* Line 3 */
    dummy += fscanf(fp, "%3c", type);
    dummy += fscanf(fp, "%11c", buf); /* pad */
    type[3] = 0;
#ifdef DEBUG
    printf("Matrix type %s\n", type);
#endif
    
    dummy += fscanf(fp, "%14c", buf); sscanf(buf, "%d", nrow);
    dummy += fscanf(fp, "%14c", buf); sscanf(buf, "%d", ncol);
    dummy += fscanf(fp, "%14c", buf); sscanf(buf, "%d", nonz);
    dummy += fscanf(fp, "%14c", buf); sscanf(buf, "%d", &tmp);
    
    if (tmp != 0)
	  printf("This is not an assembled matrix!\n");
    if (*nrow != *ncol)
	printf("Matrix is not square.\n");
    cDumpLine(fp);

    /* Allocate storage for the three arrays ( nzval, rowind, colptr ) */
    callocateA(*ncol, *nonz, nzval, rowind, colptr);

    /* Line 4: format statement */
    dummy += fscanf(fp, "%16c", buf);
    cParseIntFormat(buf, &colnum, &colsize);
    dummy += fscanf(fp, "%16c", buf);
    cParseIntFormat(buf, &rownum, &rowsize);
    dummy += fscanf(fp, "%20c", buf);
    cParseFloatFormat(buf, &valnum, &valsize);
    dummy += fscanf(fp, "%20c", buf);
    cDumpLine(fp);

    /* Line 5: right-hand side */    
    if ( rhscrd ) cDumpLine(fp); /* skip RHSFMT */
    
#ifdef DEBUG
    printf("%d rows, %d nonzeros\n", *nrow, *nonz);
    printf("colnum %d, colsize %d\n", colnum, colsize);
    printf("rownum %d, rowsize %d\n", rownum, rowsize);
    printf("valnum %d, valsize %d\n", valnum, valsize);
#endif
    
    cReadVector(fp, *ncol+1, *colptr, colnum, colsize);
    cReadVector(fp, *nonz, *rowind, rownum, rowsize);
    if ( numer_lines ) {
        cReadValues(fp, *nonz, *nzval, valnum, valsize);
    }
    
    fclose(fp);

}

